For our second mission, Rogue is demonstrating the next generation of our Scalable Compute Platform combined with sensor fusion and full 6-DOF maneuvering.
For our second mission, Rogue is demonstrating the next generation of our Scalable Compute Platform combined with sensor fusion and full 6-DOF maneuvering.
spacecraft
Meet Laura-1
The Laura-1 spacecraft by Rogue Space Systems is a testament to the relentless pursuit of groundbreaking technological advancements on our path to performing in-space servicing. This spacecraft is incorporated with a multitude of avant-garde features including a Scalable Compute Platform (SCP-3) featuring a GPU Edge Compute Cluster, and Computer Vision System. These systems work synergistically, leveraging the 6-DOF (Degrees of Freedom) Thrusters for control and maneuvering to achieve precise relative positioning, tracking, and maneuver planning using advanced Artificial Intelligence. Laura-1 aims to be a major milestone for Rogue and the space industry in space operations, showcasing the profound capabilities of Human-in-the-loop AI Command & Control (C2) and On-board AI Command & Control (C2), thus allowing for unparalleled command precision and operational efficiency in the extreme environments of space.
The overarching goal of Laura-1 is not only to test and demonstrate these enabling technologies but also to manifest Rogue’s proficiency in performing Rendezvous Proximity Operations (RPO). This capability is fundamental to achieving Rogue’s broader aspirations of conducting in-space servicing activities, a domain including satellite repair, refueling, propulsion, power augmentation, and space debris removal. These operations are critical in extending the lifespan of satellites and maintaining the sustainability of space activities.
Services
Close-Proximity In LEO
Inspection Service
The Laura spacecraft offers a meticulous inspection service, employing its advanced Vision System and state-of-the-art sensors. This service is designed to thoroughly examine satellites and other space assets, enabling the detection of structural anomalies, damages, or malfunctions. It provides intricate details and comprehensive analysis which are critical in assessing the health and functionality of space assets, enabling timely interventions, and ensuring optimal operational longevity.
Observation Service
The observation service utilizes Laura’s Scalable Compute Platform (SCP-3) and GPU Edge Compute Cluster to acquire high-resolution, clear, and precise imagery and data from satellites and space assets. Laura provides unparalleled insights into the characteristics and behaviors of observed entities. This data is crucial for performing in-space servicing, allowing for the collection of invaluable information that contributes to our knowledge of the satellite or asset to be serviced and contributes to the development of innovative technologies and solutions for in-space servicing and sustainability.
Sensor Hosting
To further advance Laura, we are offering to host customer close-proximity sensors, software and systems, allowing clients to test and demonstrate their equipment within a real-world space environment. This not only accelerates the development and validation of new satellite sensors but also provides Rogue Space and our customers, with the opportunity to consider these tested sensors for ongoing use in their operations. By offering this adaptable platform, we underscore our commitment to innovation and collaboration in the rapidly evolving landscape of space technology.
Monitoring Service
Spacecraft Laura’s monitoring service incorporates its advanced 6-DOF Control & Maneuvering and AI Maneuver Planning capabilities to continuously track and monitor the state and activities of satellites and space debris. This service facilitates real-time data acquisition and analysis, ensuring the early detection of potential collisions or disruptions. By providing consistent and accurate monitoring, it plays a pivotal role in maintaining the safety and sustainability of space operations and mitigating risks associated with the growing presence of space objects in Earth’s orbit.
Capabilities
Compare Laura Services
Laura-1
Camera
Long and Short Range
Still Imagery
Laura-N
Camera
Long and Short Range
Still Imagery
Laura-GEO
Camera
Long and Short Range
Still Imagery
Sensors
LiDAR
Sensors
LiDAR | Infrared (IR) | RADAR
Sensors
LiDAR | Infrared (IR) | RADAR
Video
HD Color
Video
HD Color
Video
HD Color
RSO Characterization
RSO Characterization
Relative Motion
Rotation at a distance
RSO Characterization
Relative Motion
Rotation at a distance
Satellite BUS
SCP | Edge Computing
6 Degrees of Freedom
Close Proximity <10M
High Delta-V Propulsion
3U Hosting Volume
Satellite BUS
SCP | Edge Computing
6 Degrees of Freedom
Close Proximity <10M
High Delta-V Propulsion
3U Hosting Volume
Satellite BUS
SCP | Edge Computing
6 Degrees of Freedom
Close Proximity <10M
High Delta-V Propulsion
2U Hosting Volume
Customer Portal
Real-time joint operations
100% involvement in asset interactions
Customer Portal
Real-time joint operations
100% involvement in asset interactions
Customer Portal
Real-time joint operations
100% involvement in asset interactions
(swipe to view)
Laura-1
CAMERA
Long and Short Range
Still Imagery
SENSORS
LiDAR
VIDEO
HD Color
RSO CHARACTERIZATION
SATELLITE BUS
SCP | Edge Computing
6 Degrees of Freedom
Close Proximity <10M
High Delta-V Propulsion
3U Hosting Volume
CUSTOMER PORTAL
Real-time joint operations
100% involvement in asset interactions
(swipe to view)
Laura-N
CAMERA
Long and Short Range
Still Imagery
SENSORS
LiDAR | Infrared (IR) | RADAR
VIDEO
HD Color
RSO CHARACTERIZATION
Relative Motion Rotation at a distance
SATELLITE BUS
SCP | Edge Computing
6 Degrees of Freedom
Close Proximity <10M
High Delta-V Propulsion
3U Hosting Volume
CUSTOMER PORTAL
Real-time joint operations
100% involvement in asset interactions
(swipe to view)
Laura-GEO
CAMERA
Long and Short Range
Still Imagery
SENSORS
LiDAR | Infrared (IR) | RADAR
VIDEO
HD Color
RSO CHARACTERIZATION
Relative Motion Rotation at a distance
SATELLITE BUS
SCP | Edge Computing
6 Degrees of Freedom
Close Proximity <10M
High Delta-V Propulsion
2U Hosting Volume
CUSTOMER PORTAL
Real-time joint operations
100% involvement in asset interactions
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Payload Services
Software
CONTAINERIZED LINUX ENVIRONMENT
UP TO 1TB HIGH SPEED STORAGE
MULTI-CORE ARM
GPU PROCESSING
Upcoming Missions
MISSION | SPACECRAFT | DATE | LAUNCH VEHICLE | DROP-OFF ORBIT | AVAILABILITY |
HELLO WORLD | BARRY-1 | NOV 11, 2023 | SPACEX’S FALCON 9 | LEO-SSO | SOFTWARE HOSTING AVAILABLE |
JE VAIS VOIR | LAURA-1 | NET Q4 2024 | SPACEX’S FALCON 9 | LEO-SSO | SOFTWARE HOSTING AVAILABLE |
TBD | LAURA-2 | NET Q4 2025 | TBD | GEO | SOFTWARE HOSTING AVAILABLE |
TBD | FRED-1 | NET Q4 2025 | TBD | LEO-SSO | HARDWARE & SOFTWARE HOSTING AVAILABLE |
(swipe to view)
Barry-1
MISSION
HELLO WORLD
DATE
NOV 11, 2023
LAUNCH VEHICLE
SPACEX F9
DROP-OFF ORBIT
LEO-SSO
AVAILABILITY
SOFTWARE HOSTING AVAILABLE
(swipe to view)
Laura-1
MISSION
JE VAIS VOIR
DATE
NET Q4 2024
LAUNCH VEHICLE
SPACEX F9
DROP-OFF ORBIT
LEO-SSO
AVAILABILITY
SPACE AVAILABLE
(swipe to view)
Laura-GEO
MISSION
TBD
DATE
NET Q4 2025
LAUNCH VEHICLE
TBD
DROP-OFF ORBIT
GEO
AVAILABILITY
SPACE AVAILABLE
(swipe to view)
Fred-1
MISSION
TBD
DATE
NET Q4 2025
LAUNCH VEHICLE
TBD
DROP-OFF ORBIT
LEO-SSO
AVAILABILITY
SPACE AVAILABLE
“Laura-1 is Rogue’s second step to bring fully autonomous robotic spacecraft into existence, and enable the greater space economy.” – Jeromy Grimmett, CEO
Launch Updates
For real time Laura-1 launch updates, follow Rogue Space on LinkedIn, Twitter, Facebook and Instagram.
Viewing A Launch
A live broadcast of the Je Vais Voir mission will be made available at approximately 15 minutes to launch. Join us as we watch our second Orbot take flight to Lower Earth Orbit.